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  Reliable Broadcast using Speed Synchronized Protocol for Different Speed Vehicles in VANET  
  Authors : Dhanshri Madankar; Purnima Selokar
  Cite as:

 

Vehicular ad-hoc network (VANET) provides vehicle to vehicle and vehicle to RSAs (Road side antennas) communication. By using Multichannel TDMA MAC protocol, once per frame each node is ensured to access the Control channel which may cause delay at the receiver end. The Proposed “Vehicle Speed Synchronized protocol” will work on Control channel as well as on Service channel. The proposed protocol will be designed in such a way that the receiver will get automatically tuned to different frequencies and transmit messages more efficiently based on their priority to the variable speed vehicles. In this proposed work the first module incorporates the communication between vehicle to vehicle and vehicle to RSA.

 

Published In : IJCSN Journal Volume 3, Issue 6

Date of Publication : December 2014

Pages : 529 - 531

Figures : 02

Tables : --

Publication Link : Reliable Broadcast using Speed Synchronized Protocol for Different Speed Vehicles in VANET

 

 

 

Dhanshri Madankar : Department of Computer Science & Engineering, RTMNU, Nagpur, Maharashtra 440018, India

Purnima Selokar : Department of Computer Science & Engineering, RTMNU, Nagpur, Maharashtra 440018, India

 

 

 

 

 

 

 

VANET

Speed Synchronized Protocol

Reliable Broadcast

RSA (Road Side Antenna)

Nodes are created successfully with RSAs (placed at equal distances) and the vehicles running on both directions. Vehicles are communicating with each other as well as road side antennas. In future, next Module will work on the speed of vehicle. The proposed protocol (Vehicle Speed Synchronized Protocol) will transmit messages more efficiently based on their priority to the variable speed vehicles. RSA will transmit the information according to the priority of messages for different speeds.

 

 

 

 

 

 

 

 

 

[1] D. Jiang and L. Delgrossi, “IEEE 802.11p: Towards an international standard for wireless access in vehicular environments,” in Proc. IEEE VTC-Spring, May 2008, pp. 2036–2040. [2] S. Gräfling, P. Mähönen, and J. Riihijärvi, “Performance evaluation of IEEE 1609 WAVE and IEEE 802.11p for vehicular communications,” in Proc. ICUFN, Jun. 2010, pp. 344–348 [3] Md. Imrul Hassan, Hai L. Vu, and Taka Sakurai, “Performance Analysis of the IEEE 802.11 MAC Protocol for DSRC Safety Applications,” in Proc. IEEE transactions on vehicular technology, vol. 60, no. 8, October 2011. [4] H. Nakata, T. Inoue, M. Itami, and K. Itoh, “A Study of Inter Vehicle Communication Scheme Allocating PN Codes to the Location on the Road,” Proc. IEEE Intelligent Transportation Systems Conf. (ITSC ’03), vol. 2, pp. 1527-1532, Oct. 2003. [5] Uma Nagaraj, Poonam Dhamal, “Broadcasting Routing Protocols in VANET” Network and Complex Systems, ISSN 2224-610X (Paper), ISSN 2225-0603 (Online), Vol 1, No.2, 2011. [6] Jagruti Sahoo, Eric Hsiao-Kuang Wu, Pratap Kumar Sahu, and Mario Gerla, “Congestion-Controlled- Coordinator-Based MAC for Safety-Critical Message Transmission in VANETs” in IEEE transactions on intelligent transportation systems. 2013. [7] H. Omar, W. Zhuang, and L. Li, “VeMAC: A TDMAbased MAC protocol for reliable broadcast in VANETs,” IEEE transactions on mobile computing, vol. 12, no. 9, September 2013.